A portable fire fighter equipment station for use at a fire fighting scene is provided. The self-supporting frame comprising three support members pivotally connected to each other at one end, the self-supporting frame configurable into an in-use configuration with non-pivotally connected ends of the support members spaced apart to form a tripod and the self-supporting frame configurable into a transportation configuration with the three support members moved into close proximity. Each firefighter station is attached to one of the support members of the self-supporting frame and has a seating surface configurable into an in-use configuration to support a firefighter in a seated position, and a transportation configuration with the seating surface in close proximity to the self-supporting frame. A breathing apparatus holder is provided for securing an air bottle to the support member of the respective firefighter station.
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1. A portable fire fighter equipment station comprising:
a self-supporting frame comprising three support members pivotally connected to each other at one end, the self-supporting frame configurable into an in-use configuration with non-pivotally connected ends of the support members spaced apart to form a tripod, and the self-supporting frame configurable into a transportation configuration with the three support members moved into close proximity; and
a plurality of firefighter stations each attached to one of the support members of the self-supporting frame, each firefighter station comprising:
a seating surface configurable into an in-use configuration, with the seating surface arranged for supporting a firefighter in a seated position, and a transportation configuration with the seating surface in close proximity to the self-supporting frame;
a breathing apparatus holder for securing an air bottle to the support member of the respective firefighter station, the breathing apparatus holder for securing the air bottle above the seating surface proximate to the self-supporting frame end having the pivotally connected members; and
at least one protective equipment holder positioned above the seating surface proximate the self-supporting frame end having the pivotally connected members; and
a pliable surface is suspended between each of the support members providing a planar surface when in the in-use configuration, each of the corners of the pliable surface are connected to respective support members at points between the pivotally connected ends and the non-pivotally connected ends of each support member forming the tripod, the pliable surface having an axis which is in a different plane than each axis of the support members wherein the pliable surface provides a surface for holding lightweight pieces of protective equipment.
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The application claims priority to U.S. patent application Ser. No. 11/386,825 filed Mar. 23, 2006, the contents of which are hereby incorporated by reference.
The present disclosure relates to the field of fire service equipment. In particular, to a portable self-supporting equipment station to be used by fire fighters while at a fire fighting scene.
A rehabilitation protocol is part of the standard operating procedures for many fire services. The rehabilitation protocol typically provides for firefighters involved in operations at an incident scene to be rotated through a rehabilitation area based on criteria such as, for example, a “two-cylinder rule” wherein a firefighter is required to attend the rehabilitation area after a second air cylinder has been exhausted. The reasons for attending the rehabilitation area include controlling the pace of physical activity (by providing rest periods), avoiding prolonged exposure to extreme temperatures, re-hydration and medical evaluation.
The rehabilitation area is located outside of the fire zone and away from the exhaust fumes where protective clothing and equipment can be safely removed. Typically, the rehabilitation area includes supplies of water (or other liquids) and full air cylinders. The rehabilitation area can also provide shelter from precipitation, wind and sun. While in the rehabilitation area firefighters can be evaluated by paramedical staff and receive minor treatment if required.
Typical rehabilitation areas can take many forms depending on the size and severity of incident and on the scope and duration of operations. In one example, the rehabilitation area can be a tarp that is laid out on the ground or indoors to delineate the area in which the firefighters can rest, cool down, re-hydrate and replenish and in which they can lay-out their equipment and change their air cylinders. In some cases the rehabilitation area can be an ad hoc area in the vicinity of the firefighting equipment (i.e. vehicles) in which the firefighters congregate during rehabilitation. In these examples the rehabilitation area offers little in the way of amenities to facilitate the rehabilitation process with firefighters sitting on the ground or on vehicle bumpers and simply laying out their equipment on the ground or hanging it from whatever perch is available.
In a more elaborate, and less common, form the rehabilitation area can comprise a mobile rehabilitation vehicle specifically equipped for the rehabilitation function. Such vehicles are not commonly used as they are beyond the budgets of many fire services and even where they do exist, would typically only be deployed to incidents of a magnitude that warrants the logistic necessary for establishing a vehicle based rehabilitation area on scene.
What is needed is a relatively low cost, easy to deploy self-supporting fire fighting equipment station that provides amenities that facilitates the rehabilitation of firefighters attending an incident scene.
In one aspect of the present disclosure there is provided a portable fire fighter equipment station comprising a self-supporting frame comprising three support members pivotally connected to each other at one end, the self-supporting frame configurable into an in-use configuration with non-pivotally connected ends of the support members spaced apart to form a tripod, and the self-supporting frame configurable into a transportation configuration with the three support members moved into close proximity. A plurality of firefighter stations each attached to one of the support members of the self-supporting frame. Each firefighter station comprising a seating surface configurable into an in-use configuration, with the seating surface arranged for supporting a firefighter in a seated position, and a transportation configuration with the seating surface in close proximity to the self-supporting frame. A breathing apparatus holder for securing an air bottle to the support member of the respective firefighter station, the breathing apparatus holder for securing the air bottle above the seating surface proximate to the self-supporting frame end having the pivotally connected members and at least one protective equipment holder positioned above the seating surface proximate the self-supporting frame end having the pivotally connected members. A pliable surface is suspended between each of the support members providing a planar surface when in the in-use configuration, each of the corners of the pliable surface are connected to respective support members at points between the pivotally connected ends and the non-pivotally connected ends of each support member forming the tripod, the pliable surface having an axis which is in a different plane than each axis of the support members wherein the pliable surface provides a surface for holding lightweight pieces of protective equipment.
Other aspects and features of the present disclosure will become apparent to those ordinarily skilled in the art or science to which it pertains upon review of the following description of specific embodiments of the disclosure in conjunction with the accompanying figures.
The present disclosure will be described in conjunction with drawings in which:
The frame 110 comprises three support members 112 pivotally connected at one end such at they can form a tripod. The other ends of the support members 112 can be connected to each other using a chain, cable or similar mechanism to limit the spreading apart of support members 112 where they form the base of the tripod. Each of the firefighter stations 120 is attached to one of three support members 112. The support members 112 can, for example, be formed from tubular stock having a round, square, rectangular, triangular or other cross-sectional profile. Each support member can optionally be equipped with a leveling mechanism 114 such as, for example, a telescopic foot assembly for facilitating leveling of the self-supporting fire fighting equipment station 100 when it is deployed on an even surface. In an alternative embodiment the leveling mechanism 114 can comprise a screw and nut assembly or other similar mechanisms for changing the effective length of the support member. Each support member can optionally comprise a telescopic section 116 for facilitating transport of the self-supporting fire fighting equipment station 100 by allowing the support members 112 to be shortened when the system is configured for transportation. In a further alternate embodiment, the leveling mechanism 114 and the telescopic section 116 can be combined to facilitate both leveling and transportation of the self-supporting fire fighting equipment station 100.
The embodiment of the self-supporting fire fighting equipment station 100 illustrated in
The seating surface 122 provides a place for the firefighter to sit while resting, cooling down, re-hydrating and replenishing. The seating surface 122 is preferably arranged in the firefighter station to provide easy access by the firefighter and also to allow a para-medical staff member to easily interact with the seated firefighter during a medical evaluation. The seating surface 122 can be foldable or storable in order to facilitate transportation and storage of the self-supporting fire fighting equipment station 100. Optionally the seating surface 122 can include a pair of armrests 128 positioned on opposite sides of the seating surface 122. The armrests 128 can be foldable or storable in order to facilitate transportation and storage of the self-supporting fire fighting equipment station 100.
The breathing apparatus holder 124 provides for the breathing apparatus to be held in place so that if is easily accessible by the firefighter or other support personnel while also not obstructing access to the firefighter station or presenting a trip hazard to personnel moving in the vicinity of the rehabilitation area. The breathing apparatus holder 124 can be adapted to holding commonly used breathing apparatus such as, for example, air bottles and self-contained breathing apparatus (SCBA). The breathing apparatus holder 124 can be used to hold either a spent breathing apparatus or a fresh replacement breathing apparatus. The breathing apparatus holder 124 can be foldable or storable in order to facilitate transportation and storage of the self-supporting fire fighting equipment station 100.
The protective equipment holder 126 provides for supporting the firefighter's protective equipment off of the ground and keeping them organized. The protective equipment can include, for example, a jacket, a helmet, gloves, a flashlight and tools. The protective equipment holder 126 can keep these items organized so they are easily located, keeps them off of the ground so that they do not present a trip hazard, so that they can more effectively dried if required, reduces the potential for damage to the equipment and also mitigates potential contamination and cross-contamination of the protective equipment. The protective equipment holder 126 can comprises, for example, a plurality of hooks or similar holding mechanisms that can be adapted to holding a range of protective equipment of various sizes, shapes and weights. The protective equipment holder 126 can optionally comprise a mesh, fabric or similar pliable surface 130, suspended between the support members 112, that is adapted to holding lightweight pieces of protective equipment such as gloves and balaclavas. The protective equipment holder 126 can be foldable or storable in order to facilitate transportation and storage of the self-supporting fire fighting equipment station 100.
In an alternative embodiment the firefighter stations 120 can each be optional equipped with a core-cooling device 132 for promoting rapid lowering of a firefighters core body temperature. The core-cooling device 132 can, for example, comprise a mechanism, such as a tray, incorporated into armrests 128 for holding a cooling source, such as an ice pack or a cold water bladder, for ease of contact with the each of the forearms of a firefighter seated on the seating surface 122.
The self-supporting fire fighting equipment station 100 can optionally include a crew identification sign 134 connected to the frame 110 to assist the fire crew and others in locating the rehabilitation area and in promoting general organization of the incident scene. The self-supporting fire fighting equipment station can also be optionally equipped with a lighting fixture 136 connected to the frame 110. The lighting fixture 136 can be used to assist in locating the rehabilitation area or to provide ambient lighting in the rehabilitation area.
The self-supporting fire fighting equipment station 100 as described above provides a relatively low cost, easy to deploy system that provides amenities that facilitates the rehabilitation of firefighters attending an incident scene. The self-supporting fire fighting equipment station 100 can also be used as a suit-up station, for example, in a staging area at a hazardous material incident scene.
It will be apparent to one skilled in the art that numerous modifications and departures from the specific embodiments described herein may be made without departing from the spirit and scope of the present disclosure.
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